US2567148A - Telephone signaling device - Google Patents

Telephone signaling device Download PDF

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Publication number
US2567148A
US2567148A US754759A US75475947A US2567148A US 2567148 A US2567148 A US 2567148A US 754759 A US754759 A US 754759A US 75475947 A US75475947 A US 75475947A US 2567148 A US2567148 A US 2567148A
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United States
Prior art keywords
signal
signalling
wire
frequency
speech
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
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US754759A
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English (en)
Inventor
Vries Willem C De
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Nederlanden Staat
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Nederlanden Staat
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Filing date
Publication date
Priority to NL68564D priority Critical patent/NL68564C/xx
Priority to FR958116D priority patent/FR958116A/fr
Priority to BE483454D priority patent/BE483454A/xx
Application filed by Nederlanden Staat filed Critical Nederlanden Staat
Priority to CH282890D priority patent/CH282890A/fr
Priority to GB34977/47A priority patent/GB648849A/en
Priority to US2447A priority patent/US2620398A/en
Application granted granted Critical
Publication of US2567148A publication Critical patent/US2567148A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04QSELECTING
    • H04Q1/00Details of selecting apparatus or arrangements
    • H04Q1/18Electrical details
    • H04Q1/30Signalling arrangements; Manipulation of signalling currents
    • H04Q1/44Signalling arrangements; Manipulation of signalling currents using alternate current
    • H04Q1/444Signalling arrangements; Manipulation of signalling currents using alternate current with voice-band signalling frequencies
    • H04Q1/446Signalling arrangements; Manipulation of signalling currents using alternate current with voice-band signalling frequencies using one signalling frequency
    • H04Q1/4465Signalling arrangements; Manipulation of signalling currents using alternate current with voice-band signalling frequencies using one signalling frequency the same frequency being used for all signalling information, e.g. A.C. nr.9 system
    • CCHEMISTRY; METALLURGY
    • C09DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
    • C09JADHESIVES; NON-MECHANICAL ASPECTS OF ADHESIVE PROCESSES IN GENERAL; ADHESIVE PROCESSES NOT PROVIDED FOR ELSEWHERE; USE OF MATERIALS AS ADHESIVES
    • C09J161/00Adhesives based on condensation polymers of aldehydes or ketones; Adhesives based on derivatives of such polymers
    • C09J161/04Condensation polymers of aldehydes or ketones with phenols only
    • C09J161/06Condensation polymers of aldehydes or ketones with phenols only of aldehydes with phenols
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04BTRANSMISSION
    • H04B3/00Line transmission systems
    • H04B3/02Details
    • H04B3/20Reducing echo effects or singing; Opening or closing transmitting path; Conditioning for transmission in one direction or the other
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M3/00Automatic or semi-automatic exchanges
    • H04M3/40Applications of speech amplifiers

Definitions

  • the present invention relates broadly to telephone signalling systems, and more particularly to toll, national and international telephone systems over which signalling is effected by the use of one or more signalling frequencies which lie in the frequency range of the speech band to be transmitted. If two of such telephone systems are interconnected directly, or by way of other systems, difiiculties may arise if the signalling operations occurring on two or more of such systems are performed by using the same signallin frequency or frequencies, because it is then possible for the signalling frequency or frequencies of one system to unintentionally or improperly affect the signal receivers of the other system.
  • band filters between the two telephone systems, such band filters serving to block the transmission of the signalling frequency or frequencies.
  • band filters serving to block the transmission of the signalling frequency or frequencies.
  • these particular frequencies are also suppressed in the speech band to be transmitted, and such objectionably affects the speech transmission.
  • the invention provides one or more signal suppressors in the connection between those telephone systems which work with the same signalling frequency or frequencies.
  • thes-e signal suppressors preferably operate so quickly that they practically suppress the voice frequency signals;
  • thes-e signal suppressors comprise a valve or thermionic tube arrangement in association with a variable attenuation network, such valve or tube being controlled by the voice'frequency signal that is to be suppressed and functioning to regulate the attenuation of this variable attenuation network.
  • this arrangement of signal suppressors does not contain any mechanical or moving parts, such as are commonly characteristic of relays, these signal suppressors can react extremely rapidly. This period of time is so short (some micro-seconds) that a typical signal receiver comprising a vacuum tube arrangement and one or more mechanical parts, such as relay armatures and the like, cannot possibly, operate on it.
  • the signal receivers are-preferably sensitive to direction, by reason of being arranged in series with the line. If the telephone systemswhich are to be connected and which operate with substantially the same signalling frequencies are of the 4-wire type, connected either 2'-wire or 4-wire, the signal suppressors can be inserted in the over-all system in any one of the following ways: either only in the incoming speech direction, or only in the outgoing speech direction, or in the incoming as well as.in the outgoing speech direction of each system.
  • Figures 1 and 2 are circuit diagrams schematically illustrating two different embodiments, each consisting of two 4-wire systems I and II, on which the signalling is effected with the same frequency, and which two systems have 4-wire interconneetion, with separated speech directions, by way of another 4-wire system designated III,
  • Figures 3 and 4 are similar circuit diagrams schematically illustrating two different ways in which the 4-wire systems can be interconnected according to the diagrams of Figures 1 and 2;
  • Figure 5 is a schematic diagram of a signal receiver and an associated barring or signal suppressing unit
  • Figure 6 is a schematic sketch of a delay circuit arrangement as used with the signalling equipment.
  • Such a 4-wire system has, for example, been disclosed in my Netherlands Patent No. 36,968;
  • the left hand signalling system I and thezsr-ight hand: signalling system II are iadapted to be interconnected by way of: an in- 1 termediate l wireasignallingzsystem designated Ti IIIJPiThesignalling.
  • signals such as supervisorysigtssinals; originating atzrtransmitterl or transmitter 4 of system I will be referred to as signals Is, C r :whereas' .the signals originating at transmitting R ays r! or .mxof'system IIwill be referred to as ignals' IIsi
  • both of hese signals are-inithevoice frequency-range or and.v LAn: impulse "relay or anauxiliary relay, ikewise' -not-shown, but represented by contact 3, serves tointerrupt oropen the'speech conductors or the-.upper:two-wire 'circuit, and'a similar'impulse or auxiliary relay, indicated by the contact "in. l2, 'serves to open -thespeech conductors of the z-lowertwol-wire circuit.
  • the signals Is such as supervisory signals, transmitted in the left hand telephone system I by the contact I of the conventional transmitting relay, are adapted to be received by the signal receiver 2 in this left; hand system.
  • the voice frequency signals Is originating in the left hand system I are able to reach the right hand system II by way of the intermediate connecting system III.
  • the signal receiving equipment 8 of the righthandsystem II is able to respond uninteni. .tio-nally or improperly to the voice frequency signals Is originating in the left hand system I.
  • a signal suppressordindicated at 13 has been interpose'dtbetvveerrithe'leftizhandi system Land the 'intermediatesconnectin-g systeni III. Initspre- :ferredembodiment; this signal" suppressor .13 is udirec-tionally' responsive and operates soaquickly "that. the impulserrelay Of'thfi".
  • signal receiver 8 of the rightihand systern-II does not have time to respond :loefore xthe aboveementionedsrsignal Is :from left handisysteml is-"suppressedi". Associated' With the signal-suppressor: I 3.
  • the left: hand system I and-the right hand systemII are national telephone systems, :and' the intermediate connecting system III .:is an international system, it'would c'f'probably be'advisable to provide a signal suppressoreffective in both'speech directions in each country, so as 'to pro'tect the national system of one countryirom: the national system of the "other country.
  • Figure 4 shows a bottom go-leg and a top return-leg for the called subscriber at the left hand end of the diagram, and shows a top go-leg and a bottom return-leg for the called subscriber at the right hand end of the diagram, the same data and re-,
  • This Figure 4 also illustratesan embodiment wherein these two different frequencies p and q are both used in the same direction of speech transmission. If, for example, the signal suppressor I3 of Figure 4 only served to suppress the signalling frequency 1), then the signalling frequency q of left hand system I might interfere with the signal receiver ll of right hand system II by way of the right hand hybrid coil arrangement, particularly if this hybrid coil arrangement were not well balanced. If, on the contrary, the signal supressor l3 of Figure 4 only served to suppress the signalling frequency q, then the signalling frequency p of left hand system I might interfere with the signal receiver 8 of right hand system II by way of an unbalanced left hand hybrid coil arrangement.
  • variable attenuation network which inserts the signal suppressor at a particular input level into the connection need only have such a value that the signal receiver beyond will definitely not operate or opate no further. This means that the attenuation to be inserted should be proportionate to the input level of the signal suppressor.
  • ance of the attenuation network preferably remains about constant and equal to the line impedance.
  • Each of the aforementioned signal suppressor arrangements I3, I4, l5 and I6 comprise in principle a tube circuit so connected and arranged that the normally slight attenuation of such circuit is increased under the influence of the signalling frequencies, whereby to effectuate a blocking of the circuit for these signalling frequencies and according to which the subsequent signal receiver that belongs to the other telephone system is not influenced.
  • This arrangement is further characterized in that the network that is controlled by the tube circuit, dependent upon the amplitude of the signalling frequencies, introduces an attenuation the magnitude of which is continuously dependent upon the amplitude of the signal frequencies.
  • the suppressor device which is shown at A in Figure 5, is arranged to be operative responsive to the direction of flow of the direct current therethrough to provide variable attenuations of the speech currents in the associated line.
  • the attenuator unit by reason of its filter configurations, has an extremely steep attenuation characteristic, whereby with the presence of small positive values of direct current, very little attenuation of the speech currents is effected and with the presence of a very small negative value of direct current the attenuation of the speech currents is quite large.
  • the electronic detector tube V2 connected in the arrangement is normally nonconductive and accordingly positive direct current is normally provided for the suppressor circuit whereby little attenuation of the speech currents is effected. However with receipt T 7 of a'-'frequency in the: signal range; the flow of egative direct current in the suppressor circuit speech current is provided.
  • and 22 and the outgoing terminals 23 and :24 are connected to'a network comprising a group of resistances R14, Rl5,Rl6, RH, R18; 'Rlilfand RZI and a series of rectifier units G3 and G4, G5 5? and'Gii which are arranged with the resistances to effect the aforedescribed attenuator operating characteristics.
  • Resistance RM, Rl5, RIG, and 1 RI! are adapted to terminate the connecting ines in such amanner as to avoid interfering reflections of the'signal at the operating frequenr cies of the system.
  • the sign'al receiver 4 which is shown in operas effecte'd and a very high attenuation for the in the spectrum of the signal frequency -from op- 'erating thesignal relay R.
  • Contact rl of-the-sig nalrelay is a-rrange'd-to-pass the signal onto the telephone exchange in an obviousmanner.
  • the output circuit of the thermionicdete'ctor tube is connected to the suppressor device-A by a "low pass filter E which comprises'coils 114,115,- L6, L1, and condenser'C l 0, Cl 1.
  • the low pass filter E is'efiective to'eliminate the high frequency alternating current of the signalling tone from the is uneiiected thereby.
  • the repeater-unit Bis operative to-amplify ive' combination with the suppressor A may comprise a conventional repeater stage B, a filthe speech current, and transmit the amplified speech signal over the tr-ansformer-unit-TRZ to the band filtering devicesof unit C.
  • the portion of' the speech frequencies which are situated in the'lower band filter transmission band arerectified by rectifier G2 and a positive voltage appears across resistance R8 for application to the detector arrangement D is shown connected to a the suppressor unit A by a variable resistance member Rl3 and a-low pass filter arrangement comprising coil units L4, L5, LS, LT, condenser units CID-and CH.
  • Therepeater stage B may be comprised of a conventional telephone repeater unit, and as illustrated in the present embodiment, includes incoming terminals and 26 which are connect? 1 ed through theprimary winding of an input transformer unit TRI to a thermionic amplifier tube VI and its associated resistance and capacitance networks including RI Cl and R2, R3.
  • the output circuit of the thermionic tube is connected over the primary winding of transformerTRIto a positive potential source of 250 volts and over resistance R4 and condenser C2 to the tube suppress'or'grid and cathode.
  • the secondary windings "of transformer TR'Z are connected to the filter networks of unit C, the upper band filter of which isarranged to receive and pass the full frequency width and which is comprised of 2; rectifier Gl, resistance R5, condenser C7, and resistance'RIS.
  • Thelower filter unit which is' somewhat imilar to the well known, three element 1r section type filter, comprises a resistance RE, parallel condenser C3 and coil Li, condenser 04, parallel "condenser C5, and coil L2, resistance R], rectifier 'G2, condenser C6 and resistance R3, which are arranged to pass the part of the speech'frequencie's that are situated in the signal band; that is,
  • the output of the lower band filter appears across resistance R8 and the output of the upper band filter appears across resistance RIO, both of which resistances are connected to the grid of the thermionic tube of the detector stage D.
  • Resistance R9 is connected in'the cathode circuit of the thermionic detector tube and to'the output circuit of the lower band filter.
  • the plate or output circuit of the thermionic detectortube V2 is connected over a low pass filter comprising coil L3 and condensers C8 and C9, to a signal relay R, a resistance Rl2 and a positive 250-vo1t power supply.
  • the lowpass filter in its connection between --the output'of the tube and the-signal relay is ef- -grid of the detectortube V2.
  • Rectifier GI rectifies'the full frequency-width and with receipt of-- the speech current-effects the provision of a proportionate negative -voltage across R10 for application to'the grid of the detector tube V2; Inasmuchaswith the presence of'speech current," the'negative voltage-Which appears 'acr-oss Riii 'will beconsiderably greater than the positive voltage-which appears- *across -resistance R8,- the detector'tube- Will -be'- main- I tained biased in its 'cut-offi-position; and there will "be noattenuation of the speech current.
  • the lower network ofthe 'attenuator will therefore be energized bypositive currentirom the 250 voltpotential'source over-resistance R12, coils L5, resistancesRiB- andRii toground. Signal relay -R will" accordingly remain inoperative and thespeech currents will be transmitted over the lower-path of the network withlittle-attenuation.
  • Signal relay R is responsive-1y operated over a path extending from the positive potential source over resistance Rl2, the signal-relay 1 R,- the lowfilter network detector tube V2 and resistance Reto ground.
  • a parallel path for the --upper portion of theattenuating-network issimultaneously'completed; such path extendingffrom the positive potential source over resistance RI 3, coils Le and L5, coils M, resistancesR'I- t and RIG,
  • the interferences of short duration the spectrum of the signal frequency do not operate the signal relay R.
  • the current throughthe barring device A is not delayed so that the barring device experiences a certain reaction in the case of short interferences in the spectrum of the signal frequency which are of suificiently high level.
  • the degree of interference is dependent upon the value of the compensation current provided for the suppressor unit which is determined by the amount of resistance inserted in the circuit by the adjustment of variable resistance Hi3.
  • the degree of interference is also strongly influenced by the choice of the signal frequency, a signal frequency of'2000 and 3000 cycles per second having been determined as being particularly well adapted for use in the described installation.
  • the interferences can be further reducedby providing a barring current circuit with a sufficiently low cut-off frequency.
  • the barring device may remain inoperative for too 1ong a period with the occurrence of a signalling operation and the passing tone may cause a fault in the next exchange. Io eliminate the last mentioned fault a delay circuit such as shown in Figure 6 may be provided to increase the operation time.
  • signal transmitting means and signal receiving means in said end system I for transmitting and receiving a signalling frequency for effecting the performance of supervisor operations in end system I
  • signal transmitting means and signal receiving means in end system II for transmitting and receiving a signalling frequency for effecting the performance of supervisory operations in end system II
  • signal suppressing means connected in said directional two-wire circuits which are operative without interrupting the existing circuit interconnections between the systems to prevent signalling frequencies in said end system Ifrom causing improper operation of the signal receiving means in end system II, and to prevent signalling frequencies in said end system II from causing improper operation of said signal receiving means in end section I.
  • each of said signal suppressing means connected in the other two-wire circuit of said intermediate system for preventing signalling frequencies as used in system II from causing improper operation of the signal receiving means in system I, each of said signal suppressing means comprising a variable attenuation network and thermionic tube means controlling said network.
  • each of said systems comprising a two-wire i r cuit for speech transmission in one direction and a two-wire circuit for speech transmission in thel other direction, signal transmitting means and signal receiving means connected in system I for transmittin and receiving a signalling frequency in the voice frequency band for effecting the performance of supervisory operations in system I,-; signal transmitting means and signal receiving,
  • signal suppressing means connected in system II for transmitting and receiving a signalling frequency in the voice frequency band which is of a different value than said signalling frequency of said system I for effecting the performance of supervisory operations in system II, signal suppressing means connected with the two-wire circuit of said intermediate system III which transmits speech in the direction I-II, said signal suppressin means being directionally responsive to attenuate signallin frequencies as used in system I so as to prevent suflicient transmission of said signalling frequencies to system II for causing operation of the signal receivingm'eans in system II,- andsignal suppressing m'eans connected with the other twowire circuit of intermediate system III which conducts speech in the direction II-I, said latter signal suppressing means being also directionally responsive'to attenuate signalling frequencies as used in system II so as to prevent sufficient transmission-of said signalling frequencies to system I for causing operation of the signal receiving means in system I.
  • each signal'suppressing means comprises a variable attenuation network and thermionic tube means controlling-the network, and wherein each signal suppressing means is effective to attenuate both signalling frequencies at their different frequency levels that may be travelling in the same direction in the respective two-wire circuit of that suppressor.
  • a four-wire telephone system I a four-wire telephone system II, means for establishing an interconnected relationship between said two systems, each of said systems comprising a two-wire circuit for speech transmission in one direction and a two-wire circuit for speech transmission in the other direction, signal transmitting and signal receiving means connected with one of said two-wire circuits for receiving and transmitting a signalling frequency in the voice frequency range for effecting the performance of supervisory operations, and signal suppressing means connected with said latter two-wire circuit for attenuatin said 'signalling frequencies arising in one sytem to pre-' vent same from causing false operation of the signal receiving means in the other system.

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  • Engineering & Computer Science (AREA)
  • Signal Processing (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Cable Transmission Systems, Equalization Of Radio And Reduction Of Echo (AREA)
  • Interface Circuits In Exchanges (AREA)
US754759A 1946-06-15 1947-06-14 Telephone signaling device Expired - Lifetime US2567148A (en)

Priority Applications (6)

Application Number Priority Date Filing Date Title
NL68564D NL68564C (pt) 1946-10-02
FR958116D FR958116A (pt) 1946-10-02
BE483454D BE483454A (pt) 1946-10-02
CH282890D CH282890A (fr) 1946-10-02 1947-12-19 Installation téléphonique pour le trafic interurbain, national ou international.
GB34977/47A GB648849A (en) 1946-10-02 1947-12-31 Voice frequency signalling system for telephone systems
US2447A US2620398A (en) 1946-10-02 1948-01-15 Voice frequency signaling system for telephone systems

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
NL281908X 1946-06-15

Publications (1)

Publication Number Publication Date
US2567148A true US2567148A (en) 1951-09-04

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Application Number Title Priority Date Filing Date
US754759A Expired - Lifetime US2567148A (en) 1946-06-15 1947-06-14 Telephone signaling device

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US (1) US2567148A (pt)
BE (1) BE483168A (pt)
CH (1) CH281908A (pt)
FR (1) FR957945A (pt)
GB (1) GB648848A (pt)
NL (2) NL125930C (pt)

Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1673023A (en) * 1926-05-01 1928-06-12 Bell Telephone Labor Inc Carrier-wave repeater
US1865952A (en) * 1925-03-03 1932-07-05 Radio Patents Corp Line protecting and message transmitting system
US2117835A (en) * 1936-06-01 1938-05-17 Bell Telephone Labor Inc Telephone signaling system
GB489609A (en) * 1937-01-25 1938-07-25 Standard Telephones Cables Ltd Improvements in or relating to electrical communication exchange systems
US2253393A (en) * 1939-02-04 1941-08-19 Westinghouse Electric & Mfg Co Method of connecting carrier frequency to a double circuit
US2385673A (en) * 1943-07-27 1945-09-25 Gen Electric Carrier current system
US2388001A (en) * 1944-12-07 1945-10-30 Hazeltine Corp Signal-transmission system
US2421727A (en) * 1945-04-09 1947-06-03 Rca Corp Multiplex system having channels added at a relay station

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1865952A (en) * 1925-03-03 1932-07-05 Radio Patents Corp Line protecting and message transmitting system
US1673023A (en) * 1926-05-01 1928-06-12 Bell Telephone Labor Inc Carrier-wave repeater
US2117835A (en) * 1936-06-01 1938-05-17 Bell Telephone Labor Inc Telephone signaling system
GB489609A (en) * 1937-01-25 1938-07-25 Standard Telephones Cables Ltd Improvements in or relating to electrical communication exchange systems
US2253393A (en) * 1939-02-04 1941-08-19 Westinghouse Electric & Mfg Co Method of connecting carrier frequency to a double circuit
US2385673A (en) * 1943-07-27 1945-09-25 Gen Electric Carrier current system
US2388001A (en) * 1944-12-07 1945-10-30 Hazeltine Corp Signal-transmission system
US2421727A (en) * 1945-04-09 1947-06-03 Rca Corp Multiplex system having channels added at a relay station

Also Published As

Publication number Publication date
FR957945A (pt) 1950-02-28
GB648848A (en) 1951-01-10
CH281908A (fr) 1952-03-31
NL68563C (pt)
BE483168A (pt)
NL125930C (pt)

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